Stochastic quantization of the three-dimensional polymer measure via the Dirichlet form method
Abstract
We prove that there exists a diffusion process whose invariant measure is the three dimensional polymer measure λ for all λ>0. We follow in part a previous incomplete unpublished work of the first named author with M. R\"ockner and X.Y. Zhou. For the construction of λ we rely on previous work by J. Westwater, E. Bolthausen and X.Y. Zhou. Using λ, the diffusion is constructed by means of the theory of Dirichlet forms on infinite-dimensional state spaces. The closability of the appropriate pre-Dirichlet form which is of gradient type is proven, by using a general closability result in [AR89a]. This result does not require an integration by parts formula (which does not even hold for the two-dimensional polymer measure λ) but requires the quasi-invariance of λ along a basis of vectors in the classical Cameron-Martin space such that the Radon-Nikodym derivatives have versions which form a continuous process.
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